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Enzyme Conformation Influences the Performance of Lipase-powered Nanomotors.

Lei WangMarzia MarcielloMiquel Estévez-GayPaul E D Soto RodriguezYurena Luengo MoratoJavier Iglesias-FernándezXin HuangSílvia OsunaMarco FiliceSamuel Sanchez
Published in: Angewandte Chemie (International ed. in English) (2020)
Enzyme-powered micro/nanomotors have myriads of potential applications in various areas. To efficiently reach those applications, it is necessary and critical to understand the fundamental aspects affecting the motion dynamics. Herein, we explored the impact of enzyme orientation on the performance of lipase-powered nanomotors by tuning the lipase immobilization strategies. The influence of the lipase orientation and lid conformation on substrate binding and catalysis was analyzed using molecular dynamics simulations. Besides, the motion performance indicates that the hydrophobic binding (via OTES) represents the best orienting strategy, providing 48.4 % and 95.4 % increase in diffusion coefficient compared to hydrophilic binding (via APTES) and Brownian motion (no fuel), respectively (with C[triacetin] of 100 mm). This work provides vital evidence for the importance of immobilization strategy and corresponding enzyme orientation for the catalytic activity and in turn, the motion performance of nanomotors, and is thus helpful to future applications.
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